Crystal Vanadium (V) Powder Description
Crystal Vanadium (V) Powder exhibits good mechanical strength, corrosion resistance, and high-temperature stability. It finds applications in the production of high-strength steel alloys, where it improves strength, toughness, and fatigue resistance. Vanadium is also utilized as a catalyst in the production of sulfuric acid and other chemical reactions.
Moreover, Crystal Vanadium (V) Powder has shown potential uses in advanced energy storage technologies, such as vanadium redox flow batteries (VRFBs). VRFBs store energy by utilizing the reversible oxidation and reduction reactions of vanadium ions in an electrolyte solution, making them a promising candidate for large-scale energy storage applications.
Crystal Vanadium (V) Powder Specification
CAS Number
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7440-62-2
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Particle Size
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10-45 μm, 45-105 μm, or customized
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Oxygen Content
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≤1500 ppm
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Apparent Density
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~3.7 g/cm3
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Appearance
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Grey powder
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Purity
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≥99.9%, or customized
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Crystal Vanadium (V) Powder Application
1. Battery technology: Vanadium-based batteries, such as vanadium redox flow batteries (VRFBs), are a promising option for large-scale energy storage. Crystal Vanadium (V) Powder can be used as a key component in the electrolyte solutions of VRFBs, enhancing their performance and efficiency.
2. Catalysts: Crystal Vanadium (V) Powder can act as a catalyst in various chemical reactions. It can be used in catalyst formulations for applications such as the production of chemicals, petroleum refining, and environmental remediation processes.
3. Alloying agent: Crystal Vanadium (V) Powder is often alloyed with other metals to improve their mechanical properties. Crystal vanadium (V) powder can be used as an alloying agent in the production of high-strength steels, titanium alloys, and other metal alloys.
4. Additive manufacturing: Crystal Vanadium (V) Powder can be used in 3D printing or additive manufacturing processes to produce parts with specific characteristics. It can be added to metal powder blends to enhance the mechanical properties of the printed objects.
5. Pigments and dyes: Vanadium compounds, including crystal vanadium (V) powder, are used in the production of pigments and dyes. These compounds are known for their vivid colors, stability, and resistance to fading, making them suitable for applications in paints, ceramics, and textiles.
6. Ceramic industry: Crystal Vanadium (V) Powder can be incorporated into ceramic materials to modify their properties. It can enhance the hardness, strength, and resistance to wear of ceramics used in cutting tools, grinding media, and wear-resistant components.
7. Nuclear industry: Vanadium has excellent neutron-absorbing properties, making it useful in the nuclear industry. Crystal Vanadium (V) Powder can be employed in the fabrication of control rods, shielding materials, and other components used in nuclear reactors.
Crystal Vanadium (V) Powder Packing
Our Crystal Vanadium (V) Powder Packing is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
FAQs
Q1. What is Crystal Vanadium (V) Powder?
Crystal Vanadium (V) powder is a fine metallic powder made from vanadium, a transition metal with the chemical symbol V. It is known for its excellent strength, high melting point, and resistance to corrosion. It is used in various applications, including the production of superalloys, catalysts, and advanced materials.
Q2. What are the main uses of Crystal Vanadium Powder?
Crystal Vanadium powder is used in a variety of industrial applications, including:
Superalloys: Vanadium is a key alloying element in the production of high-strength superalloys used in aerospace, energy, and automotive industries.
Steel Production: Vanadium is used as an alloying element in steel to improve strength, hardness, and resistance to wear and corrosion.
Catalysts: Vanadium compounds are used as catalysts in the chemical industry, particularly in the production of sulfuric acid.
Q3. How should Crystal Vanadium Powder be stored?
Vanadium powder should be stored in airtight containers to prevent contamination and oxidation. It should be kept in a dry, cool place, away from sources of moisture or heat. Inert gas environments such as nitrogen or argon may be used to prevent oxidation during storage.